Acceleration of Enterococcus faecalis biofilm formation by aggregation substance expression in an ex vivo model of cardiac valve colonization

Infectious endocarditis involves formation of a microbial biofilm in vivo. Enterococcus faecalis Aggregation Substance (Asc10) protein enhances the severity of experimental endocarditis, where it has been implicated in formation of large vegetations and in microbial persistence during infection. In...

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Veröffentlicht in:	PloS one 2010-12, Vol.5 (12), p.e15798-e15798
Hauptverfasser:	Chuang-Smith, Olivia N, Wells, Carol L, Henry-Stanley, Michelle J, Dunny, Gary M
Format:	Artikel
Sprache:	eng
Schlagworte:	Adhesion Agglomeration Analysis Animals Antibiotics Bacteria Bacterial Adhesion Bacterial proteins Bacterial Proteins - metabolism Biofilms Biology Cell Adhesion Cell culture Colonization Electron microscopy Endocarditis Endocarditis - microbiology Enterococcus faecalis Enterococcus faecalis - metabolism Genomes Health aspects Heart Heart diseases Heart Valves - cytology Heart Valves - metabolism Heart Valves - pathology Immunoglobulins Incubation Infection Infectious diseases Laboratories Medical schools Medicine Membranes Microorganisms Microscopy, Electron, Scanning - methods Models, Genetic Molecular interactions Mutagenesis Mutation Neutrophils Pathogenesis Pheromones Physiology Polymers - chemistry Populations Scanning electron microscopy Stem Cells Streptococcus faecalis Swine Vegetation Virulence
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creator	Chuang-Smith, Olivia N Wells, Carol L Henry-Stanley, Michelle J Dunny, Gary M
description	Infectious endocarditis involves formation of a microbial biofilm in vivo. Enterococcus faecalis Aggregation Substance (Asc10) protein enhances the severity of experimental endocarditis, where it has been implicated in formation of large vegetations and in microbial persistence during infection. In the current study, we developed an ex vivo porcine heart valve adherence model to study the initial interactions between Asc10(+) and Asc10(-)E. faecalis and valve tissue, and to examine formation of E. faecalis biofilms on a relevant tissue surface. Scanning electron microscopy of the infected valve tissue provided evidence for biofilm formation, including growing masses of bacterial cells and the increasing presence of exopolymeric matrix over time; accumulation of adherent biofilm populations on the cardiac valve surfaces during the first 2-4 h of incubation was over 10-fold higher than was observed on abiotic membranes incubated in the same culture medium. Asc10 expression accelerated biofilm formation via aggregation between E. faecalis cells; the results also suggested that in vivo adherence to host tissue and biofilm development by E. faecalis can proceed by Asc10-dependent or Asc10-independent pathways. Mutations in either of two Asc10 subdomains previously implicated in endocarditis virulence reduced levels of adherent bacterial populations in the ex vivo system. Interference with the molecular interactions involved in adherence and initiation of biofilm development in vivo with specific inhibitory compounds could lead to more effective treatment of infectious endocarditis.
doi_str_mv	10.1371/journal.pone.0015798
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Asc10 expression accelerated biofilm formation via aggregation between E. faecalis cells; the results also suggested that in vivo adherence to host tissue and biofilm development by E. faecalis can proceed by Asc10-dependent or Asc10-independent pathways. Mutations in either of two Asc10 subdomains previously implicated in endocarditis virulence reduced levels of adherent bacterial populations in the ex vivo system. 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Asc10 expression accelerated biofilm formation via aggregation between E. faecalis cells; the results also suggested that in vivo adherence to host tissue and biofilm development by E. faecalis can proceed by Asc10-dependent or Asc10-independent pathways. Mutations in either of two Asc10 subdomains previously implicated in endocarditis virulence reduced levels of adherent bacterial populations in the ex vivo system. Interference with the molecular interactions involved in adherence and initiation of biofilm development in vivo with specific inhibitory compounds could lead to more effective treatment of infectious endocarditis.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>21209892</pmid><doi>10.1371/journal.pone.0015798</doi><tpages>e15798</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adhesion Agglomeration Analysis Animals Antibiotics Bacteria Bacterial Adhesion Bacterial proteins Bacterial Proteins - metabolism Biofilms Biology Cell Adhesion Cell culture Colonization Electron microscopy Endocarditis Endocarditis - microbiology Enterococcus faecalis Enterococcus faecalis - metabolism Genomes Health aspects Heart Heart diseases Heart Valves - cytology Heart Valves - metabolism Heart Valves - pathology Immunoglobulins Incubation Infection Infectious diseases Laboratories Medical schools Medicine Membranes Microorganisms Microscopy, Electron, Scanning - methods Models, Genetic Molecular interactions Mutagenesis Mutation Neutrophils Pathogenesis Pheromones Physiology Polymers - chemistry Populations Scanning electron microscopy Stem Cells Streptococcus faecalis Swine Vegetation Virulence
title	Acceleration of Enterococcus faecalis biofilm formation by aggregation substance expression in an ex vivo model of cardiac valve colonization
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